Principles of Physics: A Calculus-Based Text
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN: 9781133104261
Author: Raymond A. Serway, John W. Jewett
Publisher: Cengage Learning
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Chapter 19, Problem 68P

Two point charges qA = −12.0 μC and qB = 45.0 μC and a third particle with unknown charge qC are located on the x axis. The particle qA is at the origin, and qB is at x = 15.0 cm. The third particle is to be placed so that each particle is in equilibrium under the action of the electric forces exerted by the other two particles. (a) Is this situation possible? If so, is it possible in more than one way? Explain. Find (b) the required location and (c) the magnitude and the sign of the charge of the third particle.

(a)

Expert Solution
Check Mark
To determine

Whether the situation is possible or not.

Answer to Problem 68P

The situation is possible in two ways.

Explanation of Solution

Given Info: Charge at the origin is 12 μC , and charge at 15 cm distance is 45 μC .

When the charges are of the same sign, the force is repulsive and when the charges are of the opposite sign, the force is attractive. In order to achieve equilibrium, the forces due to the charges must be balanced in magnitude as well as in direction.

Thus, it is possible to attain equilibrium with the charge q3 in two ways.

  • if a negative charge is placed on the right of charge +45 μC .
  • if a positive charge is placed on the left of charge 12 μC .

Conclusion:

Therefore, it is possible to attain equilibrium in two ways.

(b)

Expert Solution
Check Mark
To determine

The location of the charge.

Answer to Problem 68P

The location of the charge is 16 cm to the left of the charge 12 μC .

Explanation of Solution

Given Info: Charge at the origin is 12 μC , and charge at 15 cm distance is 45 μC .

According to Coulomb’s law, the electric field created by a charge q is,

E=keqr2r^

Here,

E is the electric field.

ke is the Coulomb’s constant.

q is the charge.

r is the distance between two charges.

The figure for the given conditions is shown below.

Principles of Physics: A Calculus-Based Text, Chapter 19, Problem 68P

Figure (1)

Case (1):

If a negative charge is placed on the right of charge +45 μC .

The electric field due to charge q1 is,

E1=keq1r12r^1 . (1)

Here,

E1 is the electric field due to charge q1 .

q1 is the charge at the origin.

r1 is the distance between q1 and the third charge q3 .

The electric field due to charge q2 is,

E2=keq2r22r^2 (2)

Here,

E2 is the electric field due to charge q2 .

q2 is the charge at the origin.

r2 is the distance between q2 and the third charge q3 .

In order to achieve equilibrium both E1 and E2 will be equal.

Equate equation (1) and equation (2),

E1=E2keq1r12=keq2r22q1r12=q2r22 (3)

Substitute 12.0 μC for q1 , 45.0 μC for q2 and (x+15) for r1 and x for r2 .

(12.0μC)(1C106μC)(x+15)2=(45.0μC)(1C106μC)x2(xx+15)2=1544x2=15(x2+30x+225)11x2+450x+3375=0

Solve the above quadratic equation for x .

x=9.89 and x=31

As both of the above values for x are negative, it is not possible to put the charge q3 on the right side of charge q2 .

Case (2):

If a positive charge is placed on the left of charge 12 μC

Substitute 12.0 μC for q1 , 45.0 μC for q2 and y for r1 and (y+15) for r2 in equation (3) to get y ,

(12.0 μC)(1 C106 μC)y2=(45.0 μC)(1 C106 μC)(y+15)2(y+15y)2=1544(y2+30y+225)=15y211y2120y900=0

Solve the above quadratic equation for y ,

y=16 and y=5.11

Neglect the negative value because y can’t be negative.

Thus, the y will be 16 cm .

Conclusion:

Therefore, the location of the charge is 16 cm to the left of the charge 12 μC .

(c)

Expert Solution
Check Mark
To determine

The magnitude and the sign of the charge of the third particle.

Answer to Problem 68P

The magnitude and the sign of the charge of the third particle is +51.2 μC

Explanation of Solution

Given Info: Charge at the origin is 12 μC , and charge at 15 cm distance is 45 μC .

The expression for the electric force according to Coulomb’s law can be given as,

F=keq1q2r2

Here,

F is the force due to electric field

ke is the Coulomb’s constant

q1 is the charge on the first particle

q2 is the charge on the second particle

r is the separation between the two charges.

The expression for the electric force due to q3 on q1 can be given as,

F3=keq1q3r32 (3)

Here,

F3 is the electric force due to charge q3

r3 is the separation between the charge  q3 and q1

The expression for the electric force due to q1 on q2 can be given as,

F1=keq1q2r12 (4)

Here,

F1 is the electric force due to charge q1

r1 is the separation between the charge  q1 and q2

As each particle is in equilibrium under the action of electric forces exerted by the other two particles, both F1 and F3 will be equal.

Equate equation (3) and equation (4),

F1=F3keq1q2r12=keq1q3r32q2r12=q3r32q3=q2r32r12

Substitute 45 μC for q2 , 16 cm for r3 and 15 cm for r1 to get q3

q3=(45 μC)(1 C106 μC)((16 cm)(1 m100 cm))2((15 cm)(1 m100 cm))2=51.2×106 C=51.2 μC

Thus, the charge q3 will be 51.2 μC .

Conclusion:

Therefore, the magnitude and sign of the third charge q3 will be +51.2 μC .

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Chapter 19 Solutions

Principles of Physics: A Calculus-Based Text

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